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Awareness and understanding of chemistry in everyday life for the non-science student. Non-mathematical treatment of essential fundamental concepts. Emphasis on practical applications of chemistry to consumer affairs, energy, medicine, food, sports, and pollution. Laboratory activities are designed to provide a personal experience with the concepts discussed in the course. Credit is not allowed for °ä±áÌý100 if student has prior credit for °ä±áÌý101.

R: Credit is not allowed for °ä±áÌý100 if student has prior credit for °ä±áÌý101.

GEP Natural Sciences

Typically offered in Fall and Spring

A fundamental study of molecular bonding, structure, and reactivity. Principles of atomic structure, ionic and covalent bonding, reaction energetics, intermolecular forces, precipitation reactions, acid/base reactions, oxidation/reduction processes, and introductions to organic and inorganic chemistry.

Prereq: One yr of high school chemistry and successful completion of the Chem Placement Exam or Chem Modules Exam, or completion of °ä±áÌý111 w/ a grade of C- or better or a grade of S. Coreq: °ä±áÌý102.

GEP Natural Sciences

Typically offered in Fall, Spring, and Summer

Laboratory experience to accompany °ä±áÌý101. Introduction to basic laboratory equipment and skills.

Corequisite: °ä±áÌý101

GEP Natural Sciences

Typically offered in Fall, Spring, and Summer

A study of the structure of atoms and the periodic trends of the elements, chemical bonding, the spatial and electronic structure of molecules, chemical reactions, quantification of materials and reactions, energy changes of reactions, and properties of gases. First half of a two semester sequence for students interested in a chemistry or closely related career. This course is open to 17CHEMBS, 17CHEMBA, 14EFY-14CHEI, 11BIOCHBS, 11LSFY-11BCHI, and 17MARSCBS-17MARSCCHM majors and to students with departmental approval. Students cannot receive credit for both °ä±áÌý101 and °ä±áÌý103.

Prerequisites: (Pass Chemistry Placement Exam, or Chemistry Placement Modules Exam, or °ä±áÌý111 with a grade of C- or better) and eligibility for ²Ñ´¡Ìý107; Co-requisite: °ä±áÌý104

GEP Natural Sciences

Typically offered in Fall only

Laboratory and computer-based experiments in chemical formulas, atomic structure, bonding, qualitative analysis, solutions, quantitative analysis of acids and bases, and calorimetry. First half of a two semester sequence for students interested in a chemistry or closely related career. This course is open to 17CHEMBS, 17CHEMBA, 14EFY-14CHEI, 11BIOCHBS, 11LSFY-11BCHI and 17MARSCBS-17MARSCCHM majors and to students with departmental approval. Students cannot receive credit for both °ä±áÌý102 and °ä±áÌý104.

Co-requisite: °ä±áÌý103

GEP Natural Sciences

Typically offered in Fall only

Preparation for CH101. Review of main topics from high school emphasizing nomenclature, vocabulary, the periodic table and problem solving. Emphasis on mathematical skills, data handling, reaction types, stoichiometry and solutions. Credit for °ä±áÌý111 is not allowed if a student has prior credit in °ä±áÌý101. Credit for °ä±áÌý111 does not count towards graduation for students in curricula that require °ä±áÌý101.

GEP Natural Sciences

Typically offered in Fall, Spring, and Summer

Detailed quantitative aspects of solutions, solution stoichiometry, thermodynamics, chemical equilibrium, acid-base equilibria, solubility equilibria, electrochemistry, chemical kinetics, and nuclear chemistry.

Prerequisite: °ä±áÌý101 with grade C- or better, °ä±áÌý102, and eligibility for ²Ñ´¡Ìý121 or higher, Corequisite: °ä±áÌý202

GEP Natural Sciences

Typically offered in Fall, Spring, and Summer

Laboratory experience to complement °ä±áÌý201. Experimental exploration of thermodynamic, kinetic, and electrochemical behavior.

Prerequisite: °ä±áÌý101, °ä±áÌý102, Corequisite: °ä±áÌý201

GEP Natural Sciences

Typically offered in Fall, Spring, and Summer

A study of intermolecular forces between molecules, and their affect on the properties of solids, liquids and gases, and on phase changes. The interplay of energetics and chemical kinetics on equilibria, including gas phase, acid-base, redox, and solubility equilibria. Second half of a two semester sequence for students interested in a chemistry or closely related career. This course is open to 17CHEMBS, 17CHEMBA, 14EFY-14CHEI, 11BIOCHBS, 11LSFY-11BCHI, and 17MARSCBS-17MARSCCHM majors and to students with departmental approval. Students cannot receive credit for both °ä±áÌý201 and °ä±áÌý203.

Prerequisites: (°ä±áÌý101 with a minimum of 3 grade points or °ä±áÌý103), and (°ä±áÌý102 or °ä±áÌý104), and eligibility for ²Ñ´¡Ìý131 or higher; Co-requisite: °ä±áÌý204

GEP Natural Sciences

Typically offered in Spring only

Laboratory experiments in solid state materials, preparation and analysis of an organic compound, separations, gases, solutions, equilibrium, acids and bases, and kinetics. Second half of a two semester sequence for students interested in a chemistry or closely related career. This course is open to 17CHEMBS, 17CHEMBA, 14EFY-14CHEI, 11BIOCHBS, 11LSFY-11BCHI, and 17MARSCBS-17MARSCCHM majors and to students with departmental approval. Students cannot receive credit for both °ä±áÌý202 and °ä±áÌý204.

Prerequisite: °ä±áÌý104 with a minimum of C-. Co-requisite: °ä±áÌý203

GEP Natural Sciences

Typically offered in Spring only

A one-semester course in the fundamental principles of organic chemistry. Preparation, reactions, and physical properties of alkanes, cycloalkanes, alcohols, alkyl halides, aromatic compounds, aldehydes, ketones, organic acids, acid derivatives, and amines. Credit is not allowed for both °ä±áÌý220 and °ä±áÌý221.

Prerequisite: °ä±áÌý101. Corequisite: °ä±áÌý222.

Typically offered in Fall, Spring, and Summer

First half of two-semester sequence in the fundamentals of modern organic chemistry. Structure and bonding, stereochemistry, reactivity and synthesis of carbon compounds. Detailed coverage of aliphatic hydrocarbons, alcohols, ethers, and alkyl halides. Introduction to spectral techniques of IR, UV-vis, and NMR. Students cannot receive credit for both °ä±áÌý221 and °ä±áÌý225.

Prerequisite: °ä±áÌý101 with a grade of C- or better and °ä±áÌý102; Corequisite: °ä±áÌý222

Typically offered in Fall, Spring, and Summer

Laboratory experience to accompany °ä±áÌý220 or °ä±áÌý221. Introduction to basic organic laboratory equipment and techniques. Students cannot receive credit for both °ä±áÌý222 and °ä±áÌý226.

Prerequisite: °ä±áÌý101 and °ä±áÌý102; Corequisite: °ä±áÌý220 or °ä±áÌý221

Typically offered in Fall, Spring, and Summer

Second half of two-semester sequence in the fundamentals of modern organic chemistry. Structure and bonding, stereochemistry, reactivity and synthesis of carbon compounds. Detailed coverage of aromatic hydrocarbons, condensation reagents, and selected biological chemistry topics such as carbohydrates, lipids, and amino acids. Students cannot receive credit for both °ä±áÌý223 and °ä±áÌý227.

Prerequisite: °ä±áÌý221 with a grade of C- or better and CH222; Corequisite: °ä±áÌý224

Typically offered in Fall, Spring, and Summer

Laboratory experience to accompany °ä±áÌý223. Introduction to basic organic laboratory equipment and techniques. Students cannot receive credit for both °ä±áÌý224 and °ä±áÌý228.

Prerequisite: °ä±áÌý221 and °ä±áÌý222; Corequisite: °ä±áÌý223

Typically offered in Fall, Spring, and Summer

First half of a two semester sequence in organic chemistry for students interested in a chemistry or closely related career. Structure and bonding, stereochemistry, reactivity and synthesis of aliphatic hydrocarbons, alcohols, ethers and alkyl halides. Introduction to IR, NMR, and mass spectral techniques. This course is open to 17CHEMBS, 17CHEMBA, 14EFY-14CHEI, 14CHEBS, 11BIOCHBS, 11LSFY-11BCHI, and 17MARSCBS-17MARSCHM majors and to students with departmental approval. Students cannot receive credit for both °ä±áÌý221 and °ä±áÌý225.

Prerequisites: (°ä±áÌý201 or °ä±áÌý203) and (°ä±áÌý202 or °ä±áÌý204); Co-requisite: °ä±áÌý226

Typically offered in Fall only

First half of a two semester laboratory sequence in organic chemistry for students interested in a chemistry or closely related career. Laboratory experiments in the determination of physical properties of organic compounds, separation of mixtures and purification of compounds, synthesis and spectroscopic characterization of organic compounds, and the execution of a multi-step synthesis. This course is open to 17CHEMBS, 17CHEMBA, 14EFY-14CHEI, 14CHEBS, 11BIOCHBS, 11LSFY-11BCHI and 17MARSCBS-17MARSCHM majors and to students with departmental approval. Students cannot receive credit for both °ä±áÌý222 and °ä±áÌý226.

Co-requisite: °ä±áÌý225

Typically offered in Fall only

Second half of a two semester sequence in organic chemistry for students interested in a chemistry or other closely related career. Structure and bonding, stereochemistry, reactivity and synthesis of aromatic compounds. Condensation reactions and organic compounds of biological interest. This course is open to 17CHEMBS, 17CHEMBA, 14EFY-14CHEI, 14CHEBS, 11BIOCHBS, 11LSFY-11BCHI and 17MARSCBS-17MARSCHM majors and to students with departmental approval. Students cannot receive credit for both °ä±áÌý223 and °ä±áÌý227.

Prerequisites: (°ä±áÌý221 B or better or °ä±áÌý225) & (°ä±áÌý222 or °ä±áÌý226); Corequisite: °ä±áÌý228; Restricted to:17CHEMBS, 17CHEMBA, 14CHEI, 14CHEBS, 11BIOCHBS, or 17MARSCHM majors or dept approval. Students cannot receive credit for both °ä±áÌý223 and °ä±áÌý227.

Typically offered in Spring only

Second half of a two semester laboratory sequence in organic chemistry for students interested in a chemistry or closely related career. Laboratory experiments in multi-step organic synthesis, identification and characterization of compounds by spectroscopic methods. Searching the chemical literature. This course is open to 17CHEMBS, 17CHEMBA, 14EFY-14CHEI, 14CHEBS, 11BIOCHBS, 11LSFY-11BCHI and 17MARSCBS-17MARSCHM majors and to students with departmental approval. Students cannot receive credit for both °ä±áÌý224 and °ä±áÌý228.

Co-requisite: °ä±áÌý227

Typically offered in Spring only

An introduction to computational methods in the chemical sciences. A quantitative introduction to inter- and intramolecular forces in gas and condensed phases. Potential energy surfaces of molecules and chemical reactions. First of a two-semester sequence.

Prerequisite: °ä±áÌý221 or °ä±áÌý225: Co-requisite: ²Ñ´¡Ìý241

Typically offered in Fall only

An introduction to computational methods in the chemical sciences. A computer-based introduction to quantum mechanics, including atomic and molecular orbitals and molecular orbital theory with applications to inorganic chemistry.

Prerequisite: °ä±áÌý221 or °ä±áÌý225, Corequisite: ²Ñ´¡Ìý241

Typically offered in Spring only

Special topics in chemistry at the early undergraduate level. Trial offerings of new or experimental courses in chemistry. Enrollment requires permission of the department.

Typically offered in Fall, Spring, and Summer

Introduce the fundamental principles and modern techniques of chemical analyses. This includes examination of electrolytic solutions, including acid-base, oxidation-reduction, and solubility equilibria, and introduction to spectrochemical, electrochemical, volumetric and chromatographic methods of analysis, modern chemical instrumentation, and interpretation of data.

Prerequisite: (°ä±áÌý201 or °ä±áÌý203) with a grade of C- or better, Co-requisite: °ä±áÌý316

Typically offered in Fall, Spring, and Summer

Application of spectrochemical, electrochemical, volumetric, and chromatographic methods of analysis for the identification and quantification of components in a mixture.

Prerequisite: (°ä±áÌý201 or °ä±áÌý203) and (°ä±áÌý202 or °ä±áÌý204); Corequisite: °ä±áÌý315

Typically offered in Fall, Spring, and Summer

Fundamental physiochemical principles including chemical thermodynamics, physical and chemical equilibrium, electrochemistry and reaction kinetics. For students requiring only a single semester of physical chemistry.

Prerequisite: (°ä±áÌý201 or °ä±áÌý203) and (°ä±áÌý202 and 204) and (MA 231 or 241) and (±Ê³ÛÌý205 or ±Ê³ÛÌý211)

Typically offered in Fall, Spring, and Summer

Introduction to the topic of green chemistry as an emerging field; Identification of hazards and classes; overview of sources; alternative solvents and reagents; sustainability of chemical reactions; alternative chemical reactions and pathways; alternative feedstocks; enzymatic catalysis; ionic liquids; re-engineering of chemical processes; chemical synthesis.

Prerequisite: Grade of C or better in °ä±áÌý101/102, °ä±áÌý201/202 (or equivalent general chemistry series), and °ä±áÌý221/22 (or equivalent)

Typically offered in Fall only

This course will cover the influence of chemical discoveries on major military conflicts, from World War I to the present, as well as the effect that military conflicts during this time had on chemical discoveries. Topics will include but are not limited to: explosives, chemical weapons, nuclear weapons, military medicine, and chemical/biological weapons detection.

Prerequisites: °ä±áÌý223 or °ä±áÌý227

GEP Interdisciplinary Perspectives

Typically offered in Spring only

Descriptive chemistry of the elements with particular attention to their reactions in aqueous solution. Emphasis on the chemistry of the main group elements and the periodicity of their chemical properties. Introduction to transition element and coordination chemistry. Major paper required.

Prerequisite: (°ä±áÌý201 or °ä±áÌý203) with grade of C- or better.

Typically offered in Fall and Spring

Development and application of theoretical principles to the structure and energies of inorganic substances. Particular attention to the chemistry of coordination compounds of the transition elements. Special applications to bioinorganic chemistry,organometallic chemistry, and inorganic solid state chemistry.

Prerequisite: °ä±áÌý401, °ä±áÌý431

Typically offered in Fall and Spring

Methods of quantitative analysis based on electronic instrumentation. Signal processing and electronics, spectroscopy (atomic, x-ray fluorescence, infrared/Raman, surface), voltammetry, chromatography (gas, liquid), mass spectrometry as well as chemical transducers and statistical methods of data handling.

Prerequisite: °ä±áÌý315 or ±Ê°ä°äÌý412

Typically offered in Fall and Spring

Development of the basic concepts of quantum mechanics and wavefunctions as applied to atomic structure, to the translational, rotational and vibrational motion in molecules, and to molecular spectroscopy. Development of partition functions as applied to thermodynamic properties of materials. Cannot get credit for both °ä±áÌý431 and °ä±áÌý437.

Prerequisite: (°ä±áÌý201 or °ä±áÌý203) and ²Ñ´¡Ìý242 and (±Ê³ÛÌý203 or 208); Corequisite: ²Ñ´¡Ìý341

Typically offered in Fall and Spring

A classical thermodynamic treatment of states of matter, activities and chemical potentials, energy changes, equilibria, and electrochemical processes. The kinetics of multi-step, catalytic and enzyme reactions.

Prerequisite: ²Ñ´¡Ìý341

Typically offered in Fall and Spring

An introduction to the basic principles of quantum theory and its application to atomic and molecular structure and spectroscopy.

Prerequisite: °ä±áÌý431

Typically offered in Spring only

Selected physiochemical principles including quantum theory, spectroscopy, statistical thermodynamics, and rates of chemical reactions. Credit may not be claimed for both °ä±áÌý431 and °ä±áÌý437.

Prerequisite: ±Ê³ÛÌý208 and °ä±á·¡Ìý315 and ²Ñ´¡Ìý341

Typically offered in Spring only

Chemical identification (recognition), and chemical separation techniques (identification) used to demarcate class and individual characteristics relevant in legal claims.

Prerequisite: (°ä±áÌý201 or °ä±áÌý203) and (°ä±áÌý223 or °ä±áÌý227)

Typically offered in Spring only

An advanced laboratory class in the synthesis, separation and characterization of organic, inorganic, and polymeric materials. Techniques include reactions under inert atmosphere, column chromatography, fractional distillations, NMR spectroscopy, and other advanced procedures. Scientific writing is emphasized.

Prerequisite: °ä±áÌý223 or °ä±áÌý227, Corequisite: °ä±áÌý401

Typically offered in Fall and Spring

An advanced laboratory class in the synthesis, separation and characterization of organic, inorganic, polymer and materials compounds. Techniques include literature searches, reactions, under inert atmosphere, column chromatography, fractional distillations, NMR spectroscopy, and other advanced procedures. This course builds upon the skills acquired in °ä±áÌý442 and has significant independent work.

Prerequisite: °ä±áÌý442

Typically offered in Spring only

Modern analytical and physical chemistry laboratory techniques. Emphasis on statistical methods, chemical thermodynamics, chromatography, atomic and molecular spectroscopy, report writing, scientific methodology, and laboratory safety.

Prerequisites: °ä±áÌý315 and °ä±áÌý316 and 431, all with grade of C- or better. Corequisites: °ä±áÌý415 and °ä±áÌý433

Typically offered in Fall and Spring

Advanced analytical techniques including Liquid Chromatography (HPLC), Gas Chromatography (GC), Atomic Absorption Spectroscopy (AAS), Spectrophotometry, Molecular Fluorescence, and Mass Spectrometry (MS). Physical aspects including time resolved spectrophotometric measurement of kinetics, dynamic fluorescence quenching and resonance Raman spectroscopy. Students will also participate in carrying out a project through consultation with the instructor and search of the literature.

Prerequisite: °ä±áÌý452 with a grade of C- or better

Typically offered in Fall only

Survey of the present state of understanding of the molecular mechanisms leading to the emergence of sustainable self-replicating systems in the prebiotic era on the early Earth, including historical context, experimental studies, and theoretical foundation. The course will include a focus on the fundamental chemistry of and mechanisms for the plausible prebiotic formation of diverse biomolecules (including amino acids, sugars, nucleotides, lipids, tetrapyrroles) and self-organizing chemistry leading to protocells, the proposed early progenitors of living cells. Credit will not be given for both °ä±áÌý463 and °ä±áÌý563.

Prerequisite: µþ°ä±áÌý351 or µþ°ä±áÌý451 or Permission of Instructor

Typically offered in Spring only

Special topics in chemistry at the advanced undergraduate level. Trial offerings of new or experimental courses in chemistry. Enrollment requires permission of the department.

Typically offered in Fall, Spring, and Summer

Independent investigation of a research problem under the supervision of a chemistry faculty member. Individualized/Independent Study and Research courses require a Course Agreement for Students Enrolled in Non-Standard Courses be completed by the student and faculty member prior to registration by the department.

Prerequisite: Two years of chemistry

Typically offered in Fall, Spring, and Summer

Survey of the present state of understanding of the molecular mechanisms leading to the emergence of sustainable self-replicating systems in the prebiotic era on the early Earth, including historical context, experimental studies, and theoretical foundation. The course will include a focus on the fundamental chemistry of and mechanisms for the plausible prebiotic formation of diverse biomolecules (including amino acids, sugars, nucleotides, lipids, tetrapyrroles) and self-organizing chemistry leading to protocells, the proposed early progenitors of living cells. Credit will not be given for both °ä±áÌý463 and °ä±áÌý563.

Prerequisite: µþ°ä±áÌý351 or µþ°ä±áÌý451 or Permission of Instructor

Typically offered in Spring only

Introduction and history of the field of proteomics followed by the principles and applications of proteomics technology to understand protein expression and protein post-transitional modifications. Laboratory sessions include growing yeast with stable-isotope labeled amino acids, protein purification, Western blots, protein identification and quantification, and protein bioinformatic analysis. This is a half-semester course.

Prerequisite: µþ±õ°ÕÌý410 or µþ±õ°ÕÌý510 or B°ä±áÌý454 (or approval from the instructor)

Typically offered in Spring only

Review and discussion of scientific articles, progress reports on research and special problems of interest to chemists.

Prerequisite: Graduate standing in CH

Typically offered in Fall and Spring

Detailed study of a particular problem or technique pertaining to chemistry.

Typically offered in Fall and Spring

For students in non-thesis master's programs who have completed all other requirements of the degree except preparing for and taking the final master's exam.

Prerequisite: Master's student

Typically offered in Fall only

Instruction in research and research under the mentorship of a member of the Graduate Faculty.

Prerequisite: Master's student

Typically offered in Summer only

Thesis research.

Prerequisite: Master's student

Typically offered in Fall, Spring, and Summer

For graduate students whose programs of work specify no formal course work during a summer session and who will be devoting full time to thesis research.

Prerequisite: Master's student

Typically offered in Summer only

For students who have completed all credit hour requirements and full-time enrollment for the master's degree and are writing and defending their thesis.

Prerequisite: Master's student

Typically offered in Fall, Spring, and Summer

Study of periodic table/trends, symmetry and molecular orbital theory of small molecules and extended structures, transition-metal coordination complexes, acid/base and redox reactivity of polyatomic ions, solid-state structures, and selected special topics.

Typically offered in Fall only

This course uses group theory as the basis for developing molecular orbital theory, vibrational spectroscopy, and electronic spectroscopy. Together, these methods are used to discuss topics of current research interest in inorganic chemistry.

Prerequisite: °ä±áÌý701 or equivalent

Typically offered in Spring only

Coverage of concepts of bonding and structure of transition metal complexes with emphasis on the interaction of transition metal fragements with organic ligands; study of experimental methods of mechanistic study; treatment of inorganic and organometallic reactions including metal-mediated organic synthesis, metal-catalyzed polymer synthesis, and models of bioinorganic systems.

Prerequisite: Graduate standing

Typically offered in Spring only

First semester of two-semester integrated sequence covering advanced methods for extraction and interpretation of chemical information from electronic/optical signals in chemical analysis. Digital and analog electronics, signal acquisition and processing, chemometrics, and instrumentation.

Prerequisite: °ä±áÌý433; °ä±áÌý415

Typically offered in Fall only

Introduction to physical organic chemistry. Topics include: bonding/introductory molecular orbital theory, reactive intermediates, aromaticity, pericyclic reactions, thermochemistry, linear free-energy relationships, kinetics, and transition-state theory. Topics and concepts are related to molecular reactivity and reaction mechanisms.

Prerequisite: °ä±áÌý223 or °ä±áÌý227 or °ä±áÌý433 or °ä±áÌý435

Typically offered in Fall only

Introduction to acid-base theory and mechanistic organic chemistry as applied to synthetically useful organic reactions.

Prerequisite: °ä±áÌý721

Typically offered in Spring only

Application of physical methods to the solution of structural problems in organic chemistry. Methods discussed include electronic absorption spectroscopy, vibrational spectroscopy, nuclear magnetic resonance, and mass spectrometry.

Prerequisite: (°ä±áÌý223 or °ä±áÌý227) and °ä±áÌý433 or °ä±áÌý435

Typically offered in Fall only

Fundamentals of mass spectrometry including topics such as: mass, isotopic distributions, resolving power, mass accuracy. Ionization source topics: electron impact, chemical ionization, matrix-assisted laser desorption ionization, electrospray ionization and contemporary methods. Instrumentation and mass analyzers: quadrupole, time-of-flight, Fourier transform based mass analyzers; hybrid instruments such as a quadrupole orbitrap. Tandem mass spectrometry and dissociation. Applications: quantitation, small molecule analysis, and peptide sequencing.

Prerequisite: °ä±áÌý223 or °ä±áÌý227

Typically offered in Fall only

This course is offered alternate years

Survey of chemical thermodynamics and kinetics, with emphasis on reactions in liquid phase. Problem solving an important part of course. Designed for review and expansion on materials usually covered in a one-year undergraduate physical chemistry course.

Prerequisite: Graduate standing

Typically offered in Fall only

Modern views on structure, function, and thermodynamic stability of biological macromolecules including proteins, nucleic acids, and biological membranes; theories and models of protein folding, high resolution experimental methods for structure determination of soluble and membrane proteins including solution and solid-state NMR spectroscopy.

Prerequisite: °ä±áÌý431 or °ä±áÌý433 or µþ°ä±áÌý453 or equivalent

This course is offered every third semester

Physical principles underlying the experimental spectroscopic methods used to study structure and dynamics of biological macromolecules. Detailed discussion of experimental techniques include high-resolution solution Nuclear Magnetic Resonance, Electron Paramagnetic Resonance in combination with spin labeling and spin trapping methods, and fluorescence spectroscopy, including single molecule methods and fluorescence microscopy. This course is offered every third semester from Spring 2010.

Prerequisite: °ä±áÌý331 or °ä±áÌý431, °ä±áÌý433 or equivalent

This course is offered every third semester

This course is focused on physical and quantum mechanical principles that make magnetic resonance the most important spectroscopic technique in chemistry. Detailed discussion of description of magnetic resonance phenomena and NMR and EPR experimental techniques covers both classical and quantum mechanical treatments. Students of diverse backgrounds will gain in-depth knowledge of modern magnetic resonance as applied to problems in chemistry, materials, and nano-science, and biophysics.

Prerequisite: °ä±áÌý331 or °ä±áÌý431, °ä±áÌý433 or equivalent

This course is offered every third semester

Introduction to rotational, vibrational and electronic molecular spectroscopy from a quantum mechanical viewpoint. Emphasis on the elucidation of structure, bonding and excited state properties of organic and inorganic molecules.

Prerequisite: °ä±áÌý435

Typically offered in Spring only

This course is offered alternate years

Elements of wave mechanics applied to stationary energy states and time-dependent phenomena. Applications of quantum theory to chemistry, particularly chemical bonds.

Prerequisite: MA 301, °ä±áÌý435 or ±Ê³ÛÌý407

Typically offered in Fall only

Thermodynamics and kinetics of electrode reactions presented as well as experimental methods for studying them. Particular emphasis on measurement of standard potential and establishing number of electrons transferred. Applications of electrochemistry in production/storage of energy and in chemical analysis.

Prerequisite: °ä±áÌý431 or °ä±áÌý433

Typically offered in Spring only

This course is offered alternate years

Basic principles of methods in chemical separation including gas chromatography, liquid chromatography, etc. Theory, instrumentation and applications of various chromatographic and electrophoretic techniques.

Prerequisite: Graduate Standing

Typically offered in Fall only

Effects of structure and substituents on direction and rates of organic reactions; detailed analysis of organic reaction mechanisms and how they can be controlled; prediction of the product outcome in stereoselective reactions.

Prerequisite: Graduate Standing or by instructor permission

Typically offered in Fall only

Detailed examination of the relationship between chemical structure and physical properties of materials with potential use in applications. Different classes of molecules and materials requirements for several applications will be emphasized.

Prerequisite: °ä±áÌý201 or equivalent

Typically offered in Spring only

The interface between inorganic and biological chemistry will be explored, focusing on the catalytic processes in metalloenzymes, and with an emphasis on the diverse roles of transition metals in biology. The physical methods required for the study of bioinorganic systems will be introduced, with application toward determining enzymatic mechanisms. Selected topics will include heme chemistry, nitrogen fixation, C-H bond activation, electron transfer, oxygen transport, metal ion uptake and toxicity, drug activation and/or metabolism by metalloenzymes, and metallodrugs.

Prerequisite: °ä±áÌý401

Typically offered in Spring only

This course is offered alternate even years

Selected topics in solid-state chemistry including: extended symmetry, structure, bonding, characterizations, and special topics. Graduate standing in Chemistry required.

Prerequisite: °ä±áÌý701 or equivalent

Typically offered in Spring only

Typically offered in Fall and Spring

Review and discussion of scientific articles, progress reports on research and special problems of interest to chemists.

Prerequisite: Graduate standing in CH

Typically offered in Fall and Spring

Detailed study of a particular problem or technique pertaining to chemistry.

Typically offered in Fall only

For students who are preparing for and taking written and/or oral preliminary exams.

Prerequisite: Doctoral student

Typically offered in Fall only

Instruction in research and research under the mentorship of a member of the Graduate Faculty.

Prerequisite: Doctoral student

Typically offered in Fall only

Dissertation research.

Prerequisite: Doctoral student

Typically offered in Fall, Spring, and Summer

For graduate students whose programs of work specify no formal course work during a summer session and who will be devoting full time to thesis research.

Prerequisite: Doctoral student

Typically offered in Summer only

For students who have completed all credit hour, full-time enrollment, preliminary examination, and residency requirements for the doctoral degree, and are writing and defending their dissertations.

Prerequisite: Doctoral student

Typically offered in Fall, Spring, and Summer